Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1247691 | TrAC Trends in Analytical Chemistry | 2016 | 13 Pages |
Abstract
In this overview, we offer an insight into the analytical potential of different nanomaterials for chemical speciation of trace elements.
Keywords
RSDMWCNTsDMACPECNTSERS4-MercaptopyridineAASAFSSPELSPRTXRFICP-AESSDMEETAASMeHgTBTTributyltinMMANanosorbentsFAASAPDCETVIEPMMTMSPSFICVGSWCNTsEthylmercuryICPMSTELCDTADDTCMEKCMESNAFluorescence resonance-energy transferDMSPEGC-MSMNPsLab-on-valveAmmonium pyrrolidinedithiocarbamateEDTAethylendiaminetetraacetic acidSolid-phase extractionCloud point extractionAAS, atomic absorption spectrometryUltravioletCapillary electrophoresisFRETrelative standard deviationGrapheme oxideCold vapourApplicationsElectrothermal vaporizationFlow injectionSequential injectionVapour generationChemical vapor generationhydride generationmpysingle-drop microextractionLOD یا Limit of detectionSeMetDimethylarsinatediethyldithiocarbamateLocalized surface plasmon resonanceSodium diethyldithiocarbamateSurface enhanced Raman spectroscopySelenomethionineselenocystineChemical speciationinductively coupled plasma-atomic emission spectrometryatomic fluorescence spectrometryinductively coupled plasma mass spectrometryTrace elementsenrichment factorPolypropylene hollow fiberPhenylmercuryLOVLDHPANMicrowavesMethylmercurylimit of detectionMonomethylarsonateNanosized materialsNanoparticleMagnetic nanoparticlesSingle-walled Carbon NanotubesMulti-walled carbon nanotubesCarbon nanotubeNanocatalystsIsoelectric pointCarbon dotquantum dotChemiluminescenceLayered double hydroxideliquid chromatographyhigh performance liquid chromatographyHPLCIon chromatographyTotal reflection X-ray fluorescenceGraphene
Related Topics
Physical Sciences and Engineering
Chemistry
Analytical Chemistry
Authors
C. Bendicho, C. Bendicho-Lavilla, I. Lavilla,